Environmental conditions and intraspecific interference: unexpected effects of turbidity on pike (Esox lucius) foraging

P.A. Nilsson, Lene Jacobsen, Søren Berg, Christian Skov

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Interference among predators decreases per capita foraging rates and has implications for both community dynamics and top-down trophic processes. Interference originates from behavioural interactions among foragers, and these behaviours could be affected by environmental conditions. In experiments on pike foraging alone or among conspecifics in different levels of water turbidity, we expected high turbidity to decrease the perceived risk of intraspecific interactions among pike, and thereby decrease the strength of interference, as turbidity would decrease the visual contact between individuals and act as a refuge from behavioural interactions. The results show that this is not the case, but suggest that interference is induced instead of reduced in high turbidity. Per capita foraging rates do not differ between pike foraging alone or in groups in our clear and moderately turbid treatments, indicating no effect of interference. As high turbidity enhances prey consumption for pike individuals foraging alone, but does not have this effect for pike in groups, high turbidity induces the relative interference effect. We suggest that future evaluations of the stabilizing effects of interference on community dynamics and its reduction of predation impact on top-down trophic cascades should consider potential unexpected effects of environmental conditions.
Original languageEnglish
JournalEthology
Volume115
Issue number1
Pages (from-to)33-38
ISSN0179-1613
DOIs
Publication statusPublished - 2009

Cite this

@article{fae47964a7c54cdfa7b00fa13027c68e,
title = "Environmental conditions and intraspecific interference: unexpected effects of turbidity on pike (Esox lucius) foraging",
abstract = "Interference among predators decreases per capita foraging rates and has implications for both community dynamics and top-down trophic processes. Interference originates from behavioural interactions among foragers, and these behaviours could be affected by environmental conditions. In experiments on pike foraging alone or among conspecifics in different levels of water turbidity, we expected high turbidity to decrease the perceived risk of intraspecific interactions among pike, and thereby decrease the strength of interference, as turbidity would decrease the visual contact between individuals and act as a refuge from behavioural interactions. The results show that this is not the case, but suggest that interference is induced instead of reduced in high turbidity. Per capita foraging rates do not differ between pike foraging alone or in groups in our clear and moderately turbid treatments, indicating no effect of interference. As high turbidity enhances prey consumption for pike individuals foraging alone, but does not have this effect for pike in groups, high turbidity induces the relative interference effect. We suggest that future evaluations of the stabilizing effects of interference on community dynamics and its reduction of predation impact on top-down trophic cascades should consider potential unexpected effects of environmental conditions.",
author = "P.A. Nilsson and Lene Jacobsen and S{\o}ren Berg and Christian Skov",
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language = "English",
volume = "115",
pages = "33--38",
journal = "Ethology",
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Environmental conditions and intraspecific interference: unexpected effects of turbidity on pike (Esox lucius) foraging. / Nilsson, P.A.; Jacobsen, Lene; Berg, Søren; Skov, Christian.

In: Ethology, Vol. 115, No. 1, 2009, p. 33-38.

Research output: Contribution to journalJournal articleResearchpeer-review

TY - JOUR

T1 - Environmental conditions and intraspecific interference: unexpected effects of turbidity on pike (Esox lucius) foraging

AU - Nilsson, P.A.

AU - Jacobsen, Lene

AU - Berg, Søren

AU - Skov, Christian

PY - 2009

Y1 - 2009

N2 - Interference among predators decreases per capita foraging rates and has implications for both community dynamics and top-down trophic processes. Interference originates from behavioural interactions among foragers, and these behaviours could be affected by environmental conditions. In experiments on pike foraging alone or among conspecifics in different levels of water turbidity, we expected high turbidity to decrease the perceived risk of intraspecific interactions among pike, and thereby decrease the strength of interference, as turbidity would decrease the visual contact between individuals and act as a refuge from behavioural interactions. The results show that this is not the case, but suggest that interference is induced instead of reduced in high turbidity. Per capita foraging rates do not differ between pike foraging alone or in groups in our clear and moderately turbid treatments, indicating no effect of interference. As high turbidity enhances prey consumption for pike individuals foraging alone, but does not have this effect for pike in groups, high turbidity induces the relative interference effect. We suggest that future evaluations of the stabilizing effects of interference on community dynamics and its reduction of predation impact on top-down trophic cascades should consider potential unexpected effects of environmental conditions.

AB - Interference among predators decreases per capita foraging rates and has implications for both community dynamics and top-down trophic processes. Interference originates from behavioural interactions among foragers, and these behaviours could be affected by environmental conditions. In experiments on pike foraging alone or among conspecifics in different levels of water turbidity, we expected high turbidity to decrease the perceived risk of intraspecific interactions among pike, and thereby decrease the strength of interference, as turbidity would decrease the visual contact between individuals and act as a refuge from behavioural interactions. The results show that this is not the case, but suggest that interference is induced instead of reduced in high turbidity. Per capita foraging rates do not differ between pike foraging alone or in groups in our clear and moderately turbid treatments, indicating no effect of interference. As high turbidity enhances prey consumption for pike individuals foraging alone, but does not have this effect for pike in groups, high turbidity induces the relative interference effect. We suggest that future evaluations of the stabilizing effects of interference on community dynamics and its reduction of predation impact on top-down trophic cascades should consider potential unexpected effects of environmental conditions.

U2 - 10.1111/j.1439-0310.2008.01578.x

DO - 10.1111/j.1439-0310.2008.01578.x

M3 - Journal article

VL - 115

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EP - 38

JO - Ethology

JF - Ethology

SN - 0179-1613

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